Faculty

林丁丙 Ding-Bing Lin photo
Position
Professor
Education
Ph.D., Dept. EE, National Taiwan University
E-mail
dblin@mail.ntust.edu.tw
Room
EE206

Office Hours Mon. 15:00-17:30
Telephone 02-27376366
Homepage
Laboratory Wireless Communication and EM Application Lab.
Major Field EM design for high-speed digital system, Antenna design, Microwave Engineering, Radio propagation, Wireless communication
Course Electromagnetic Wave, High-Speed Digital Signal Integrity Design, High-Frequency Measurement Techniques, Antenna

2023.07 ~ 2027.03 教育部「行動通訊主題式跨層次系統整合教學聯盟計畫」 -低軌衛星通訊非地面網路跨層次系統整合教學聯盟中心計畫主持人
2023.01 ~ 2024.12 中華民國微波學會副理事長
2023.01 ~ 迄今 Taipei Chatper Chair, IEEE Antennas and Propagation Society
2022.01 ~ 迄今 經濟部產業發展署產業升級創新平台計畫專審委員
2019.01 ~ 迄今 Associate Editor, IEEE Trans. EMC
2018.09 ~ 2023.03 5G行動寬頻跨校教學聯盟計畫-5G天線與射頻技術跨校聯盟中心-計畫主持人
2016.08 ~ 迄今 國立臺灣科技大學 電子工程系 教授
2016.05 ~ 2018.01 教育部行動寬頻尖端技術人才培育計畫-行動通訊電路設計聯盟中心召集人
2016.01 ~ 迄今 經濟部中小企業處SBIR電子領域審查委員
2015.08 ~ 2018.12 Taipei Chapter Chair, IEEE EMC society
2015.01 ~ 2019.01 經濟部工業局產業升級創新平台計畫專審委員
2015.01 ~ 2016.12 中華民國微波學會副理事長
2014.08 ~ 2016.07 國立臺北科技大學 電子工程系 特聘教授
2014.01 ~ 迄今 IEEE senior member
2013.01 ~ 迄今 中華民國微波學會理事
2011.04 ~ 2014.03 教育部網路資訊人才培育計畫數位匯流教學推動聯盟中心召集人
2010.12 ~ 迄今 中國無線電協進會理事
2010.04 ~ 2012.07 教育部技專校院招生委員會聯合會 資訊處 處長
2009.01 ~ 2014.12 Taipei Chatper Chair, IEEE Broadcast society
2008.01 ~ 2012.07 國立台北科技大學 計算機與網路中心 主任
2007.09 ~ 2011.03 教育部資通訊科技人材培育先導型計畫「數位電視與廣播教學推動聯盟中心」召集人
2005.02 ~ 2014.07 台北科技大學 電子工程系 教授
2004.01 ~ 2007.03 教育部第四期通訊教育改進計畫辦公室執行祕書
1997.01 ~ 2015.12 經濟部技術處SBIR資訊、資通、電子領域審查委員
1996.08 ~ 1998.07 國立台北科技大學 教務處 課務組組長
1994.08 ~ 1995.07 國立台北工業專科學校 夜間部 課務組組長
1993.08 ~ 2005.01 國立台北科技大學 電子工程系 副教授
109.07 ~ 113.06 財團法人台灣商品檢測驗證中心董事


2024 112學年度教學優良獎
2024 112學年度學術類研究創作優良獎
2019 Associate Editor, IEEE Trans. EMC
2018 Invite Talk: 2018 IEEE International Workshop on Electromagnetics
2016 高雄應用科技大學105年度傑出校友
2016 Taipei Chapter Chair, IEEE EMC society
2015 Keynote Speech, 2015 Asian Wireless Power Transfer Workshop
2015 指導學生獲Finalist, Best Paper Award, ISAP 2015
2015 Best Chapter Award, IEEE EMC society (擔任Chapter TPC Chair)
2014 台灣電磁產學聯盟2014年傑出講座
2010 執行99年度國科會自由軟體暨嵌入式系統計畫「子計畫五:DVB-H具全頻寬縮小化天線之開發(2/2)」榮獲群體計畫績優團隊獎
2009 執行98年度國科會自由軟體暨嵌入式系統計畫「子計畫五:DVB-H具全頻寬縮小化天線之開發(1/2)」榮獲群體計畫績優團隊獎
2008 台北科技大學97年度傑出研究獎
2008 執行97年度國科會自由軟體暨嵌入式系統計畫「子計畫一:WiMAX電波傳播特性與通道統計特性軟體模擬平台(III)」榮獲群體計畫績優團隊獎
2008 台北科技大學電資學院 97年度傑出研究獎
2008 台北科技大學電資學院 學院研究獎
2006 台北科技大學電資學院95年度傑出研究獎
2004 台北科技大學機電學院93年度研究獎
2004 台北科技大學93年傑出教職員工

Research Achievement
  [1]   D. Lin, H. Chou and J. Chou, "Antenna pairing for highly efficient wireless power transmission in the reactive near-field region based on mutual coupled impedance compensation," in IET Microwaves, Antennas & Propagation, vol. 14, no. 1, pp. 60-65, 8 1 2020, doi: 10.1049/iet-map.2019.0466.
  [2]   D. Lin, T. Wang and J. Chiang, "Suppression of Wideband Simultaneous Switching Noise Through Application of a Partial Electromagnetic Band-Gap Structure in Multilayer Printed Circuit Boards," in IEEE Transactions on Electromagnetic Compatibility, vol. 62, no. 4, pp. 1247-1255, Aug. 2020, doi: 10.1109/TEMC.2019.2944967.
  [3]   Tse-Hsuan Wang & Ding-Bing Lin (2019): Using modified nodal analysis in cavity-mode resonances printed circuit board power bus structures with the segmentation method,Journal of the Chinese Institute of Engineers https://doi.org/10.1080/02533839.2019.1611480
  [4]   Lin D-B, Wu I, Huang P-C.Design of planar inverted-F antenna pair with reflectors for near-field power transfer. Microw Opt Technol Lett. 2020;1–9. https://doi.org/10.1002/mop.32444
  [5]   Chih-Hung Lee, Ding-Bing Lin* and Guan-Hung Lu, “Enhancement of the antenna bandwidth by coupling the planar inverted-F antenna and multi-ultra-thin slots for handheld devices with metal housing,” Microwave and Optical Technology Letters. 60:2384–2392, Sept., 2018. https://doi.org/10.1002/mop.31389 (SCI)
  [6]   Jui-Hung Chou, Jo-Fan Chang, Ding-Bing Lin*, and Tzong-Lin Wu, “Dual-band WLAN MIMO antenna with a decoupling element for full-metallic bottom cover tablet computer applications.” Microwave and Optical Technology Letters., 60:1245–1251, Apr., 2018. https://doi.org/10.1002/mop.31135 (SCI)
  [7]   Po-Hsuan Tseng, Yao-Chia Chan, Yi-Jie Lin, Ding-Bing Lin, Nan Wu, and Tsai-Mau Wa, “Ray-Tracing-Assisted Fingerprinting Based on Channel Impulse Response Measurement for Indoor Positioning,” IEEE Trans. Instrumentation and Measurement, Vol. 66, No. 5, pp. 1032-1045, May 2017.
  [8]   Rong-Shue Hsiao, Tian-Xiang Chen, Chun-Hao Kao, Hsin-Piao Lin, and Ding-Bing Lin. An Intelligent Access Control System Based on Passive Radio-Frequency Identification,” Sensors and Materials, Vol. 29, No. 4, pp. 355-362, Apr. 2017.
  [9]   Ding-Bing Lin, Chung-Pin Huang, and Hsin-Nan Ke, Wen Sheng Liu, “The Analysis of Transient Waveform and Common Mode Noise on Differential Broadside-Coupled Delay Lines,” Journal of Electromagnetic Waves and Applications, pp. 1-16, Nov. 28, 2016.
  [10]   Ding-Bing Lin, Tse-Hsuan Wang and Fu-Jung Chen, “Novel RFID Tag Antenna Design For Wearable Device Applications,” International Journal Of Electrical Engineering, vol.23, no.3, pp. 113-122 June 2016.
  [11]   Su-Mei Shen, I-Fong Chen, Chia-Mei Peng and Ding-Bing Lin, “Printed Single-layer ACPW Stepped-feed Monopole Antenna for LTE/WLAN Band Applications,” IEICE Communications Express, vol. 5, no. 6, pp. 175-182, June 2016.
  [12]   Jui-Hung Chou, Ding-Bing Lin, Tsai-Wen Hsiao, and Hsi-Tseng Chou, “A Compact Shorted Patch Rectenna Design with Harmonic Rejection Properties for the Applications of Wireless Power Transmission,” Microwave and Optical Technology Letters, Vol. 58, No. 9, pp. 2250-2257, June 2016. https://doi.org/10.1002/mop.30012(SCI)
  [13]   Ding-Bing Lin, Chung-Pin Huang and Hsin-Nan Ke, “Using Stepped-Impedance Lines for Common-Mode Noise Reduction on Bended Coupled Transmission Lines, ”IEEE Trans. Compon. Packag., Manuf. Technol., vol. 6, no. 5, pp. 757–766, May 2016.
  [14]   Su-Mei Shen, I-Fong Chen, Chia-Mei Peng and Ding-Bing Lin “Analysis of multi-band operation of CPW feed monopole antenna by Gaussian filter model” International Journal of Applied Electromagnetics and Mechanics, vol. 47, pp. 1085–1092, 2015
  [15]   R. S. Hsiao, D. B. Lin, H. P. Lin, S. J. Bair and J. W. Zhou , “Room Occupancy Determination Using Multimodal Sensor Fusion,” Sensors and Materials, vol. 27, no. 8, pp. 605 - 610, May 2015
  [16]   Mekuanint Agegnehu Bitew, Rong-Shue Hsiao, Hsin-Piao Lin, and Ding-Bing Lin “Hybrid Indoor Human Localization System for Addressing the Issue of RSS Variation in Fingerprinting” International Journal of Distributed Sensor Networks, vol. 2015, article ID 831423, 9 pages, 2015.
  [17]   L. Yen, H. P. Lin, D. B. Lin, S. S. Jeng, " Performance Analysis Of Genetic Algorithm Based Downlink MIMO Channel Capacity Enhancement For Distributed Antenna Relay System In Indoor Line-of-sight Wi-Fi Environment ," WIT Transactions on Information and Communication Technologies , pp. 49-58, Oct. 2014.
  [18]   Pang-Chun Tsai, Hsin-Piao Lin, Ding-Bing Lin, and Ching-Jen Chang, “Design and Implement of Transceiver System for Hybrid Rocket with Coplanar Wraparound Antenna at 433 MHz,” accepted by IET Microwaves, Antennas & Propagation, 2014.
  [19]   Jui-Hung Chou, Ding-Bing Lin*, Kuo-Lin Weng, Hsueh-Jyh Li, "All Polarization Receiving Rectenna with Harmonic Rejection Property for Wireless Power Transmission," accepted by IEEE Trans. Antennas and Propagation, vol. 2014.
  [20]   Ding-Bing Lin, Jui-Hung Chou, Sonon Fu and Hsueh-Jyh Li, "A compact dual-band printed antenna design for LTE operation in handheld device applications," accepted by International Journal of Antennas and Propagation, vol. 2014, 2014.
  [21]   Jui-Hung Chou, Jo-Fan Chang, Ding-Bing Lin, Hsueh-Jyh Li, Tzong-Lin Wu, “A Compact Loop-Slot Mode Combination Antenna for Ultra-thin Tablet Computer with Metallic Bottom Cover,” accepted by IEEE Antennas and Wireless Propagation Letter, vol. 13, 2014.
  [22]   R. S. Hsiao*, D. B. Lin, H. P. Lin, C. H. Chung and F. C. Kang , “An Integrated Deployment Planning Tool for Indoor Building Sensor Networks,” Sensors and Materials, vol. 26, no. 5, pp. 347 - 352, March 2014
  [23]   Ding-Bing Lin, Jui-Hung Chou, Chih-Yu Wu, and Hsueh-Jyh Li, "A Novel Miniaturized Dual-Layered LTE Printed Antenna for Handheld Devices", IEEE Antennas and Wireless Propagation Letter, vol. 12, pp. 1680-1683, 2013.
  [24]   Su-Mei Shen, I-Fong Chen, Chia-Mei Peng, and Ding-Bing Lin, “Printed Asymmetric Dual-Dipole Antenna for Tablet PC Applications,” IEEE Antennas and Wireless Propagation Letter, vol. 12, pp. 1003-1005, 2013. (SCI) Polarized Crossed Dipole for Automotive Applications
  [25]   D.-B. Lin, Y.-H. Ho and J.-H. Chou, “Far-End Crosstalk Improvement Of Coupled Microstrip Lines By Using Step-Guard-Trace,” International Journal of Electrical Engineering, vol. 20, no. 3, pp. 85-89, 2013.
  [26]   R. S. Hsiao, D. B. Lin, H. P. Lin, S. C. Cheng and C. H. Chung, “A Robust Occupancy-based Building Lighting Framework using Wireless Sensor Networks,” Applied Mechanics and Materials, Vols. 284-287. pp 2015-2020, Jan. 2013.
  [27]   I.-Fong Chen, Chia-Mei Peng, Su-Mei Shen, Ding-Bing Lin, and Keh-Yi Lee, “Bowtie-Feed Broadband Monopole Antenna for Laptop Applications,” IEEE Antennas and Wireless Propagation Letter, vol. 10, pp. 1302-1304 2011.
  [28]   Hsun-Chang Lo, Ding-Bing Lin, Teng-Chieh Yang and Hsueh-Jyh Li, “Effect of Polarization on the Correlation and Capacity of Indoor MIMO Channels,” International Journal of Antennas and Propagation, vol. 2012, 2012.
  [29]   D. B. Lin, I. T. Tang, and E. T. Chang, “Printed spiral-slot multimode antenna miniaturization for digital television signal receptions,” Microwave and Optical Technology Letters, vol. 54, no.6, pp. 1369-1371, 2012.
  [30]   R. S. Hsiao, D. B. Lin, H. P. Lin, C. H. Chung, S. C. Cheng, “A Robust Sensor Deployment of Wireless Sensor Networks for Home Automation,” Sensor Letters, 2012
  [31]   D.-B. Lin, C.-C.Wang, J.-H. Chou, and I.-T. Tang, “Novel UHF RFID Loop Antenna with Interdigital Coupled Section on Metallic Objects,” Journal of Electromagnetic Waves And Applications, vol. 26, no. 2-3, pp. 366-378, 2012.
  [32]   D.-B. Lin, I-T. Tang, and C.-C. Wang, “UHF RFID H-Shaped Tag Antenna Using Microstrip Feed Design on Metallic Objects,” Journal of Electromagnetic Waves and Applications, vol. 25, no. 13, pp. 1828-1839, 2011.
  [33]   D. B. Lin, F. N. Wu, C. T. Wu, K. C. Hung, Jim Nadolny, “Channel Optimization by Selecting On-Die Termination on Multi-drop Topologies,” International Journal of Electrical Engineering, vol. 19, no. 4, pp. 159-168, 2012.
  [34]   D.-B. Lin, F.-N. Wu, W. S. Liu, C. K. Wang, and H.-Y. Shih, “Crosstalk and Discontinuities Reduction on Multi-Module Memory Bus by Particle Swarm Optimization,” Progress In Electromagnetics Research, Vol. 121, pp. 53-74, Oct. 2011.
  [35]   Ding-Bing Lin, I-Tseng Tang, and Yu-Jiau Wei, “Compact Dual-Band-Notched CPW-Fed Wide-Slot Antenna For WLAN And WiMAX Applications,” Microwave and Optical Technology Letter, vol. 53, no. 7, pp. 1496-1501, July 2011.
  [36]   D.-B. Lin, P.-C. Tsai, I.-T. Tang, and W.-S. Chiu, “Planar Inverted-L Antenna for Octa-Band Operations of Smart Handsets,” Journal of Electromagnetic Waves And Applications, vol. 25, no. 16, pp. 2188-2200, 2011.
  [37]   R.-T. Juang, K.-P. Yar, H.-P. Lin, and D.-B. Lin, “Wireless Broadcasting Using XOR Coding,” Electronics Letters, vol. 46, no. 25, Dec. 2010.
  [38]   D.-B. Lin, I-T. Tang, E.-T. Chang, “Interdigital Capacitor IFA for Multiband Operation in The Mobile Phone,” Progress In Electromagnetics Research C, Vol. 15, 1-12, 2010
  [39]   W.-T. Huang, C.-H. Lu and D.-B. Lin, “Suppression Of Crosstalk Using Serpentine Guard Trace Vias,” Progress In Electromagnetics Research, Vol. 109, 37-61, Oct. 2010.
  [40]   Rong-Terng Juang, Kao-Fa Yeh, Hsin-Piao Lin, and Ding-Bing Lin, “Performance Verification of WCDMA Soft Handover on High-speed Trains,” International Journal of Electrical Engineering, Vol. 17, No. 5, pp. 321-326, Oct. 2010.
  [41]   Ding-Bing Lin, Pang-Chun Tsai, I-Tseng Tang, and Peng-Su Chen, "Spiral and Multimode Antenna Miniaturization for DTV Signal Receptions," IEEE Antennas and Wireless Propagation Letter, vol. 9, pp. 902-905, 2010
  [42]   Ding-Bing Lin, I-Tseng Tang, Ming-Zhang Hong, "A Compact Quad-Band PIFA by Tuning The Defected Ground Structure for Mobile Phones,” Progress In Electromagnetics Research B, Vol. 24, 173–189, 2010.
  [43]   Wen-Jeng Lin, Jian-Yi Li, Lih-Shan Chen, Ding-Bing Lin, and Mau-Phon Houng, “Investigation in Open Circuited Metal Lines Embedded in Defected Ground Structure and Its Applications to UWB Filters,” IEEE Microwave and Wireless Components Letters, vol. 20, no. 3, pp. 148-150, March 2010.
  [44]   W. -J. Lin, J. -Y. Li, D.-B. Lin, L. -S. Chen, and M. -P. Houng, “Multi-Suppression of Microstrip Bandpass Filter Using Split-Mode Excitations,” Journal of Electromagnetic Waves and Applications, vol. 24, page 1501-1510, 2010.
  [45]   W. -J. Lin, J. -Y. Li, D.-B. Lin, L. -S. Chen, and M. -P. Houng, “Miniaturized Wideband Ring-Type Bandpass Filterswith Upper Stopband Characteristic,” Journal of Electromagnetic Waves and Applications, vol. 24, page 931-939, 2010.
  [46]   J. -Y. Li, W. -J. Lin, D.-B. Lin, L. -S. Chen, and M. -P. Houng, “A Miniaturized Bandpass Filter with Controllable Harmonic by Using Split Impedance Resonators,” Progress In Electromagnetics Research C, vol. 14, 147-154, 2010.
  [47]   R.-T. Juang, P. Ting H.-P Lin, D.-B Lin, “Link Adaptation Based on Repetition Coding for Mobile Worldwide Interoperability for Microwave Access Systems,” IET Communications, Vol. 4, No. 9, pp. 1039-1048, Jun. 2010.
  [48]   Rong-Terng Juang, Kun-Yi Lin, Pangan Ting, Hsin-Piao Lin, and Ding-Bing Lin, “Enhanced Chase Combining HARQ With ICI and IAI Mitigation for MIMO-OFDM Systems,” IEEE Trans. Vehicular Technology, vol. 58, no. 8, October 2009.
  [49]   Ding-Bing Lin, Chun-Te Wu, Kuo-Chiang Hung, Feng-Nan Wu, and Yen-Hun Chen, “A fast algorithm to calculate the transfer impedance of an arbitrarily shaped power bus,” IEEE Microwave and Wireless Components Letters, vol. 19, no. 3, pp. 125–127, March 2009.
  [50]   Chin-Sheng Chang, Jain-Yi Li, Wen-Jeng Lin, Mau-Phon Houng, Lih-Shan Chen, and Ding-Bing Lin, “Controlling the frequency of simultaneous switching noise suppression by using embedded dielectric resonators in high-impedance surface structure,” Progress In Electromagnetics Research Letter, vol. 11, pp.149-158, 2009.
  [51]   D.-B. Lin, I.-T. Tang, and Y.-Y. Chang, “Flower-Like Cpw-Fed Monopole Antenna For Quad-Band Operation of Mobile Handsets,” Journal of Electromagnetic Waves and Applications, volume 23, no. 17/18, page 2271-2278, 2009.
  [52]   Chin-Sheng Chang, Jain-Yi Li, Shi-Xiong Lin, Wen-Jeng Lin, Mau-Phon Houng, Lih-Shan Chen, and Ding-Bing Lin, “Simultaneous Switching Noise Suppression Using Nickel-Ferrite Thin Films,” Journal of Electromagnetic Waves and Applications, vol. 23, pp. 1685-1694, 2009.
  [53]   W.-T. Huang, C.-H. Lu and D.-B. Lin, “The Optimal Number and Location of Grounded Vias to Reduce Crosstalk,” Progress In Electromagnetics Research, PIER 95, 241-266, 2009.
  [54]   I.-T. Tang, D.-B. Lin, C.-M. Li and M.-Y. Chiu, “Compact Pentagon Ultra-Wideband Bandpass Filter With Good Out-Of-Band Performance,” Journal of Electromagnetic Waves and Applications, vol. 23, no. 3, pp. 1695–1706, 2009.
  [55]   Ding-Bing Lin, Kuo-Chiang Hung, Chun-Te Wu, and Chin-Sheng Chang, “Partial uniplanar compact electromagnetic bandgap combined with high-impedance surface to suppress simultaneous switching noise,” Electronics Letters, vol. 45, no. 16, pp. 829 – 830, 2009.
  [56]   Ding-Bing Lin, Kuo-Chiang Hung, Chun-Te Wu, and Chin-Sheng Chang, “A serpent bridge electromagnetic bandgap structure for suppressing simultaneous switching noise,” Journal of Electromagnetic Waves and Applications, vol. 23, no. 3, pp. 213–220, 2009.
  [57]   Chun-Te Wu, Kuo-Chiang Hung, Ding-Bing Lin, and Feng-Nan Wu, “Applications of moats, voltage regulator modules and decoupling capacitors to suppress delta-I noise,” International Journal of Electrical Engineering, vol. 16, no. 1, pp. 91–99, Feb. 2009.
  [58]   W.-J. Lin, C.-S. Chang, and J.-Y. Li, D.-B. Lin, L.-S. Chen, and M.-P. Houng, “A New Approach of Dual-Band Filters by Stepped Impedance Simplified Cascaded Quadruplet Resonators with Slot Coupling,” Progress In Electromagnetics Research Letters, Vol. 9, 19-28, 2009.
  [59]   P.-H. Chiang, D.-B. Lin, H-J. Li, and G. Stuber, “Joint estimation of carrier-frequency and sampling-frequency offsets for SC-FDE systems on multipath fading channels,” IEEE Trans. Communications, Vol. 56, No. 8, pp. 1231-1235, Aug. 2008.
  [60]   I-T. Tang, D.-B. Lin, and T-H Lu “Apply the slow wave effect in the design of a compact antenna,” Microwave Journal, Vol. 51, No. 6, pp. 96-104, June 2008.
  [61]   I-T Tang, D.-B. Lin, W.-L. Chen, and J.-H. Horng, “Miniaturized hexaband meandered PIFA antenna using three meandered-shaped slits,” Microwave and Optical Technology Letter, Vol. 50, No. 4, pp. 1022-1025, Apr. 2008.
  [62]   I-T. Tang, D.-B. Lin, G.-H. Liou, J.-H. Horng, “Miniaturized 5.2 GHz notched UWB CPW-fed antenna using dual reverse split trapezoid slots,” Microwave and Optical Technology Letter, Vol. 50, No. 3, pp. 652-655, March 2008.
  [63]   W.-J. Lin, C.-S. Chang, J.-Y. Li, D.-B. Lin, L.-S. Chen, and M.-P. Houng, “Improved compact broadband bandpass filter using branch stubs co-via structure with wide stopband characteristic,” Progress In Electromagnetics Research C, Vol. 5, 45-55, 2008.
  [64]   Chin-Sheng Chang, Mau-Phon Houng, Ding-Bing Lin, Kuo-Chiang Hung, and Ray-Fong Hong, “Analysis and suppression on simultaneous switching noise coupling between multi-cavities for multilayer PCBs,” Progress In Electromagnetics Research Letters, Vol. 5, pp. 167–174, 2008.
  [65]   C.-S. Chang, M.-P. Houng, D.-B. Lin, K.-C. Hung, and I.-T. Tang, “Simultaneous switching noise mitigation capability with low parasitic effect using a periodic high-impedance surface structure,” Progress In Electromagnetics Research Letters, Vol. 4, 149-158, 2008.
  [66]   I-T. Tang, D.-B. Lin, M.-Y. Chiu and C.-M. Li, “Ultra-wideband bandpass filter using hybrid microstrip-defected-ground structure,” Microwave and Optical Technology Letter, Vol. 50, No. 12, pp. 3085-3089, Dec. 2008.
  [67]   M.-J. Tseng, H.-P. Lin, and D.-B. Lin, “Utilizing markov transition model to accurately predict wideband propagation channel parameters,” International Journal of Electrical Engineering, Vol. 14, No. 2, pp. 115-123, May 2007.
  [68]   R.-T. Juang, D.-B. Lin, and H.-P. Lin, “Hybrid SADOA/TDOA mobile positioning for cellular networks,” IET Communications, Vol. 1, No. 2, pp. 282-287, Apr. 2007.
  [69]   D.-B. Lin, I-T Tang, and M-Y Tsao, “A compact UWB antenna with CPW-fed,” Microwave and Optical Technology Letter, Vol. 49, No. 3, pp. 564-567, March 2007.
  [70]   P.-H. Chiang, D.-B. Lin, and H.-J. Li, “Performance analysis of two-branch space-time block coded DS-CDMA systems in time-varying multipath rayleigh fading channels,” IEEE Trans. Vehicular Technology, Vol. 56, No. 2, pp. 975-983, Mar 2007.
  [71]   P.-H. Chiang, D.-B. Lin, and H.-J. Li, “SINR for DS-CDMA with random spreading,” IEE Proceedings Communications, Vol. 153, No. 3, pp. 419-424, June 2006.
  [72]   D.-B. Lin, M.-J. Tseng, and H.-P. Lin, “A semi-determinist markov model for modeling a 1.8GHz wireless propagation channel in urban Taipei city,” International Journal of Electrical Engineering, Vol. 13, No. 2, pp. 177-183, May 2006.
  [73]   D.-B. Lin, P.-H. Chiang, and H.-J. Li, “Performance of noncoherent maximum-likelihood sequence detection for differential OFDM systems with diversity reception,” IEEE Trans. Broadcasting, Vol. 52, No. 1, pp. 62-70, Mar. 2006.
  [74]   P.-H. Chiang, D.-B. Lin, and H.-J. Li, “Performance of 2IMO differentially transmit-diversity block coded OFDM systems in time-varying multipath rayleigh fading channels,” IEICE Trans. Communications, Vol. E89-B, No. 2, pp. 518-530, Feb. 2006.
  [75]   Hsin-Piao Lin, Rong-Terng Juang and Ding-Bing Lin, “Validation of an Improved Location-Based Handover Algorithm Using GSM Measurement Data,” IEEE Trans. Mobile Computing, vol. 4, no. 6, pp. 530 - 536, September/October 2005
  [76]   D.-B. Lin and R.-T. Juang, “Mobile location estimation based on differences of signal attenuations for GSM systems,” IEEE Trans. Vehicular Technology Vol. 54, No. 4, pp. 1447-1454, July 2005.
  [77]   Ding-Bing Lin, Ping-Hung Chiang and Hsueh-Jyh Li, “Performance analysis of two-branch transmit diversity block-coded OFDM systems in time-varying multipath Rayleigh-fading channels,” IEEE Trans. Vehicular Technology, vol. 54, no. 1, pp. 136 - 148, January 2005
  [78]   D.-B. Lin, R.-T. Juang and H.-P. Lin, “Robust mobile location estimation based on signal attenuation for cellular communication systems,” Electronics Letters, Vol. 40, No 25, pp. 1594-1595, 9th Dec. 2004.
  [79]   H.-P. Lin, R.-T. Juang, D.-B. Lin, C.-Y. Ke, and Yi Wang, “Cell planning scheme for WCDMA systems using genetic algorithm and measured background noise floor,” IEE Proceedings Communications Vol. 151, No. 6, pp. 595-600, Dec. 2004.
  [80]   D.-B. Lin, “Signal integrity of bent differential transmission lines,” Electronics Letters, Vol. 40, No 19, pp. 1191-1192, 16th Sept. 2004.
  [81]   D.-B. Lin and T.-H. Chu, “Bistatic microwave frequency-swept imaging: principle, methodology and experimental results,” IEEE Trans. Microwave Theory Tech., vol. MTT-41, pp. 855-861, May 1993.
  [82]   T.-H. Chu and D.-B. Lin, “Microwave diversity imaging of perfectly conducting objects in the near-field region,” IEEE Trans. Microwave Theory Tech., vol. MTT-39, pp. 480-487, March 1991.
  [83]   T.-H. Chu and D.-B. Lin, “On microwave imagery using bojarski’s identity,” IEEE Trans. Microwave Theory Tech., vol. MTT-37, pp. 1141-1144, July 1989.
  [1]   K. Wu et al., "One-dimensional Steerable End-fire Orthogonal Beams for 5G Millimeter Wave Applications by L-shape Antenna Element Arrangement in Antenna-in-Packaging Design," 2020 IEEE 70th Electronic Components and Technology Conference (ECTC), Orlando, FL, USA, 2020, pp. 126-131, doi: 10.1109/ECTC32862.2020.00033.
  [2]  
  [3]  
  [4]  
  [5]   K. Wu, D. Lin, C. Wang and H. Chou, "Series Feed Broadband Patch Array Antenna Design for Vehicle Collision Warning Radar System," 2019 Joint International Symposium on Electromagnetic Compatibility, Sapporo and Asia-Pacific International Symposium on Electromagnetic Compatibility (EMC Sapporo/APEMC), Sapporo, Japan, 2019, pp. 490-493, doi: 10.23919/EMCTokyo.2019.8893664.
  [6]  
  [7]  
  [8]  
  [9]  
  [10]  
  [11]  
  [12]  
  [13]  
  [14]  
  [15]  
  [16]  
  [17]  
  [18]  
  [19]  
  [20]  
  [21]  
  [22]  
  [23]  
  [24]  
  [25]  
  [26]  
  [27]  
  [28]  
  [29]  
  [30]  
  [31]  
  [32]  
  [33]  
  [34]  
  [35]  
  [36]  
  [37]  
  [38]  
  [39]  
  [40]  
  [41]  
  [42]  
  [43]  
  [44]  
  [45]  
  [46]  
  [47]  
  [48]  
  [49]  
  [50]  
  [51]  
  [52]  
  [53]  
  [54]  
  [55]  
  [56]  
  [57]  
  [58]  
  [59]  
  [60]  
  [61]  
  [62]  
  [63]  
  [64]  
  [65]  
  [66]  
  [67]  
  [68]  
  [69]  
  [70]  
  [71]  
  [72]  
  [73]  
  [74]  
  [75]  
  [76]  
  [77]  
  [78]  
  [79]  
  [80]  
  [81]  
  [82]  
  [83]  
  [84]  
  [85]  
  [86]  
  [87]  
  [88]  
  [89]  
  [90]  
  [91]  
  [92]  
  [93]  
  [94]  
  [95]  
  [96]  
  [97]  
  [98]  
  [99]  
  [100]  
  [101]  
  [102]  
  [103]  
  [104]  
  [105]  
  [106]  
  [107]  
  [108]  
  [109]  
  [110]  
  [111]  
  [112]  
  [113]  
  [114]  
  [115]  
  [116]  
  [117]  
  [118]  
  [119]  
  [120]  
  [121]  
  [122]  
  [123]  
  [124]  
  [125]  
  [126]  
  [127]  
  [128]  
  [129]  
  [130]  
  [131]  
  [132]  
  [133]  
  [134]  
  [135]  
  [136]  
  [137]  
  [138]  
  [139]  
  [140]  
  [141]  
  [142]  
  [143]  
  [144]  
  [145]  
  [146]  
  [147]  
  [148]  
  [149]  
  [150]  
  [151]  
  [152]  
  [153]  
  [154]  
  [155]  
  [156]  
  [157]  
  [158]  
  [159]  
  [160]  
  [161]  
  [162]  
  [163]  
  [164]  
  [165]  
  [166]  
  [167]  
  [168]  
  [169]  
  [170]  
  [171]  
  [172]  
  [173]  
  [174]  
  [175]  
  [176]  
  [177]  
  [178]  
  [179]  
  [180]  
  [181]  
  [182]  
  [183]  
  [184]  
  [185]  
  [186]  
  [187]  
  [188]  
  [189]  
  [190]  
  [191]  
  [192]  
  [193]  
  [194]  
  [195]  
  [196]  
  [197]  
  [198]  
  [199]  
  [1]  
  [2]  
  [3]  
  [4]  
  [5]  
  [6]  
  [7]   Jung-Chan Chang, Ding-Bing Lin, Interconnect structure, US Patent No.: 8,071,891 B2, 201112~203112 (專利權人:Himax Media Solutions)
  [8]  
  [9]   陳俊宏、陳再生、林丁丙,存儲控制器系統,中華人民共和國專利第1061497號,2007年。
  [10]   林丁丙、林信標、柯正義、莊嶸騰,用於GSM系統之行動定位評估方法與行動定位服務系統,中華民國發明專利 I231375,200504~202305 (專利權人:台灣大哥大股份有限公司)

Research Achievement
Title Total Amount Conduct From Conduct Until Client
毫米波波導與波束成型設計 xx 202408 202507 明泰科技股份有限公司
應用於多層板之同步切換雜訊耦合機制建立與雜訊耦合量之快速預估 xx 202408 202607 國科會
衛星通訊與地面通訊之干擾研究 xx 202406 202505 台灣大哥大股份有限公司
高頻互聯關鍵元件的信號傳輸特性 202404 202503 貿聯國際股份有限公司
高頻切換雜訊耦合機制探討暨高速訊號穿層設計最佳化之研究 202309 202408 英業達股份有限公司
毫米波Metal Waveguide饋送網路設計與天線 xx 202308 202407 明泰科技股份有限公司
低軌衛星通訊非地面網路跨層次系統整合 教學聯盟中心(第一期) xx 202307 202503 教育部
影像對影像轉換之室內射線追蹤模型加速運算研究 xx 202306 202405 台灣大哥大股份有限公司
利用3D高頻模擬軟體對纜線建模、模擬與量測 202304 202403 貿聯國際股份有限公司
合成孔徑(Synthetic Aperture) 雷達SIW天線及饋送網路設計 xx 202208 202307 明泰科技股份有限公司
高速傳輸電磁特性分析 xx 202207 202506 東研信超股份有限公司
基於深度學習之射線追蹤模型加速運算之研究 xx 202206 202305 台灣大哥大股份有限公司
利用全波模擬軟體對 USB 纜線及量測治具建模、模擬與量測 202203 202302 貿聯國際股份有限公司
電源遞送網路阻抗平坦化暨傳輸線特性量測去嵌入方法之研究 202109 202208 英業達股份有限公司
毫米波雷達多送多收天線設計暨波入射方向估測演算法 xx 202108 202207 明泰科技股份有限公司
基於深度學習之5G網路切片資源管理暨基於路徑剖面之傳播路徑損失建模研究 xx 202106 202205 台灣大哥大股份有限公司
利用全波模擬對高速USB線束模擬實測 202102 202201 貿聯國際股份有限公司
電源遞送網路之高頻電源切換雜訊模型化暨抑制策略之研究 202009 202108 英業達股份有限公司
應用於下世代Massive MIMO暨智慧型天線操作之前瞻技術發展(3/3) 202007 202106 科技部
應用深度學習於5G異質行動通訊網路資源配置之研究 202006 202105 台灣大哥大公司
5G行動寬頻跨校教學聯盟計畫-5G天線與射頻技術跨校聯盟中心(第2期) 202004 202103 教育部
5G射頻產業技術聯盟(3/3) 2500000 202002 202101 科技部
毫米波雷達/5G天線罩設計與技術諮詢 400000 201911 202010 明泰科技股份有限公司
深度學習應用於電源遞送網路切換雜訊抑制策略研究及可行性評估 800000 201909 202008 英業達股份有限公司
促成智能製造之整合無線接取與管理研究 993000 201908 202007 科技部
共模雜訊寬頻抑制雙頻吸收濾波器設計 993000 201908 202007 科技部
H2020 應用於未來工廠之5G機器通訊技術(3/3) 4730000 201907 202006 科技部
應用於下世代Massive MIMO暨智慧型天線操作之前瞻技術發展(2/3) 8783000 201907 202006 科技部
深度學習於行動通訊網路基站資源配置效能改善策略之研究 1200000 201906 202005 台灣大哥大公司
5G射頻產業技術聯盟(2/3) 2500000 201902 202001 科技部
財政部關務署物聯網全時監控技術可行性驗證委託學術或專業機構(廠商)協助機關辦理專業服務採購案 800000 201811 201909 財政部關務署
5G行動寬頻跨校教學聯盟計畫-5G天線與射頻技術跨校聯盟中心(第1期) 8860000 201809 202003 教育部
高速數位訊號傳輸、電源遞送暨量測技術分析與研究 800000 201809 201908 英業達股份有限公司
嵌入式寬頻共模雜訊抑制濾波器設計 729000 201808 201907 科技部
應用於下世代Massive MIMO暨智慧型天線操作之前瞻技術發展(1/3) 7093000 201807 201906 科技部
高速傳輸電磁特性分析 201807 202106 聯寶科技股份有限公司
深度學習於行動通訊網路的應用研究 1200000 201806 201905 台灣大哥大公司
5G射頻產業技術聯盟(1/3) 2800000 201802 201901 科技部
高速數位系統功率與訊號完整性分析與研究 800000 201709 201808 英業達股份有限公司
運用量測資料來分析電磁波之於人體的效應 1200000 201705 201804 台灣大哥大公司
77GHz前向雷達天線設計 800000 201701 201712 鼎天國際股份有限公司
利用快速演算法估測寬頻同步切換雜訊抑制 709000 201608 201707 科技部
寬頻通訊系統高速傳輸電磁特性分析 2000000 201608 201801 新漢股份有限公司
行動寬頻尖端技術跨校教學聯盟計畫 -行動通訊電路設計聯盟中心 9133250 201605 201801 教育部
綠能通訊為基礎之基地臺對人體的影響 1200000 201604 201703 台灣大哥大公司
e-Tag系統對4G-LTE 900 MHz系統服務使用影響評估 1400000 201601 201606 遠通電收股份有限公司
針對多對差動訊號傳輸線之寬頻共模抑制濾波器設計 965000 201508 201607 科技部
700/1800/2600MHz頻段之混頻佈建與干擾分析研究 1200000 201504 201603 台灣大哥大公司
高速數位系統電性分析與驗證 3000000 201502 201607 新漢股份有限公司
兼顧頻譜效率與節能的LTE-A Small Cell佈建策略設計 300000 201412 201503 台灣大哥大公司
應用於LTE且具去耦合技術之多輸入多輸出縮小化天線設計 600000 201410 201507 佳邦科技股份有限公司
串音干擾降低及共模雜訊抑制之最佳化設計 670000 201408 201507 科技部
LTE-A Small Cell佈建策略與效能分析 900000 201406 201411 台灣大哥大公司
評估以被動式中繼器提升e-Tag系統與LTE-A系統共存之強健性 1578000 201401 201412 遠通電收股份有限公司
高速電路佈局之遠端串音干擾抑制技術 791000 201308 201407 國科會
台灣佈建LTE-A系統之頻率規劃與資源配置機制的探討 1794000 201306 201405 台灣大哥大公司
全金屬背蓋之NFC天線設計 700000 201304 201403 佳邦科技股份有限公司
車用多模態圓極化接收天線設計 300000 201210 201303 佳邦科技股份有限公司
提升LTE-A系統整體資料吞吐量之載波選擇及干擾消除之研究 1794000 201206 201305 台灣大哥大公司
車用多方向性圓極化接收天線設計 600000 201110 201209 佳邦科技股份有限公司
高速電路佈局系統寬頻同步切換雜訊之抑制技術 686000 201108 201207 國科會
載波聚合技術對行動通訊系統整體資料吞吐量之影響 1794000 201106 201205 台灣大哥大公司
網路資訊人才培育計畫-數位匯流教學推動聯盟中心 16101077 201104 201403 教育部
在基地台細胞邊緣之增進資料吞吐量的方法研究 1794000 201006 201105 台灣大哥大公司
運用互動學習與實境參與提升高中女性對無線網通科技之探索能力 1540000 201005 201204 國科會
嵌入式DVB-H接收系統之開發-子計畫五:DVB-H具全頻寬縮小化天線之開發 1627000 200908 201107 國科會
無線網路架構之整合與效能評估 1794000 200906 201005 台灣大哥大公司
數位電視頻帶晶片天線設計評估 500000 200810 200902 順煜科技公司
基於不同無線通訊情境中之定位演算法研究與分析 645000 200808 200907 國科會
網路連接器Cat6之設計 300000 200808 201107 鼎志股份有限公司
WiMAX/HSPA無線接取技術之效能提升方案研究暨佈建軟體平台之開發 1794000 200806 200905 台灣大哥大公司
電子掃描陣列模組整合與系統校正研究 600000 200805 200811 中山科學研究院
MIMO及OFDMA無線通訊傳輸技術之研究 1000000 200803 201002 凌陽電通科技公司
資通訊人才培育先導型計畫-數位電視與廣播教學推動聯盟中心 23825759 200709 201103 教育部
以異質系統定位技術為基礎之行動通訊系統優化方案 660000 200708 200807 國科會
線性多輸入多輸出(MIMO)系統等化器暨其DSP應用 47000 200707 200802 國科會
可攜式數位電視天線與USB介面接收盒之整合設計 500000 200705 200804 順煜科技公司
以定位為基礎之系統優化方案與異質網路整合平台之開發 1794000 200704 200803 台灣大哥大公司
新一代網路連接器Cat6之設計與分析 505440 200703 200802 鼎志股份有限公司
使用定位為基礎的智慧型天線系統來提昇802.11a無線區域網路整體效能 752000 200608 200707 國科會
WiMAX系統電波傳播特性與通道統計特性軟體模擬平台開發 2043000 200608 200907 國科會
第三代行動通訊系統基站之最佳規劃與室內射頻定位技術之探討 1794000 200604 200703 台灣大哥大公司
無線感測網路建構佈建軟體平台 400000 200604 200608 工業研究院
3GPP W-CDMA R05旁路分集技術(Diversity)與等化技術(Equalization)接收機效能分析研究 800000 200603 200802 凌陽科技公司
使用定位為基礎的智慧型天線系統來提昇802.11a無線區域網路整體效能 612000 200508 200607 國科會
室內、室外行動通訊系統基站之最佳規劃與射頻定位技術之探討 1794000 200504 200603 台灣大哥大公司
新頻段MIMO通道量測與模型建立研究計畫 499675 200504 200603 工業技術研究院
寬頻通道參數狀態為基礎之射頻手機定位技術 486800 200408 200507 國科會
室內基站規劃暨其效能評估軟體之開發 1797000 200401 200412 台灣大哥大公司
以接收訊號場強為基礎之兩種射頻手機定位技術 714000 200308 200407 國科會
行動電話追蹤技術之探討與其應用 468600 200306 200405 國科會
利用查表方式設計寬頻衰落通道之高速模擬模式 627600 200208 200307 國科會
行動通訊系統優化策略及電波傳播特性之探討 2197160 200206 200305 台灣大哥大公司
無線通訊寬頻通道碼爾可夫模式之研究與模擬 438400 200108 200207 國科會
室外至室內及全室內之通道特性量測、分析、與傳播模式之建立暨其系統效能之分析 1859880 200106 200205 台灣大哥大公司
DCS-1800系統之通道特性量測、分析、與傳播模式之建立暨其系統效能之分析 2239600 200005 200104 台灣大哥大公司

Student
Academic Year Thesis Title Student
111 Common Mode Noise Filter and Frequency Modulated Continuous Wave Radar Tjahjo Adiprabowo
111 Non-Contact Monitoring and Classification of Breathing Pattern with FMCW radar for the Supervision of People Infected by COVID-19 Ariana Tulus Purnomo
M.S
Academic Year Thesis Title Student
113 Folded Substrate Integrated Waveguide Beamforming Network and Slot Antenna Array for Automotive mmWave Radar Yi-Han Wu
113 Wideband Rejection Absorptive Frequency Selective Surface with Air Vents Sheng-Hong Wu
113 De-embedding bandwidth-limitation analysis based on fixture difference Jia-He Lu
113 De-embedding Technique for Extraction and Analysis of Insulator Properties in Coaxial Cables Po-Jui, Lu
113 Plane Lens with Phase-shifting Surface for Enhancing Antenna Array Performance in Low-orbit Satellite Communication HUN-HUNG KAO
113 Modeling of power switching noise coupling mechanism between Power/Ground plane and Transmission line Peng-Sheng Huang
112 Analysis and verification of electrical characteristics for twinax cable with asymmetric cross-section Cheng-Hsun Ho
112 Measurement-based modeling of high-frequency power switch noise for voltage regulation modules Sung-Yang Lin
112 Designing an intelligent surface for validating the feasibility of wireless channel environment control at 5.2GHz Hsuan-Yu Lin
112 Dual-polarized coplanar capacitively coupled array antenna for low-orbit satellite communications SIANG-EN SIE
112 Dual-polarized coplanar capacitively coupled array antenna for low-orbit satellite communications SIANG-EN SIE
112 Bidirectional Absorption and Dual-band Common-Mode Noise Filter Fang-Ying Hsieh
112 Noise Suppression for Moat-crossing Stripline by High Impedance Surface Bing-Jia Zhong
112 Voltage Regulator Module Switching Noise Reduction Using Backdrill Zi-Yang Xu
111 Substrate-Integrated Waveguide Switched Beam Circuit for Next-Generation Mobile Communication Wan-Yu Chu
111 Design dual-band Absorptive Common-Mode Noise Suppression Filter with Series Unified Matching Network Ting-Tu Lee
111 Research of Single and Multiple Observation Ports on Flatness of Self-impedance on Power Distribution Network Wen-Chun Liu
111 Fixture Structure Design Based on De-embedding Techniques of Automatic Fixtures Removal Chin An Lin
111 Smart Transfer Planer With Multiple Antenna array Used for Outdoor and Indoor Communication Hui-Tzu Rao
111 The de-embedding technique for transmission line measurement Yu-Chuan Luo
110 Novel Design of Antennas Considering Reflection from UAV Housing Han-Lin Chiu
110 Bandwidth Limitation Studies for De-embedding Techniques of Automatic Fixtures Removal YI-DE GUO
110 Application of Automotive Collision Warning System Using Multibeam Array Antenna Based on SIW Rotman Lens Chia-Hung Chou
110 Strategy Study of Decoupling Capacitor Placement for The Impedance Flatness of Power Distribution Network Jhih-Yu Yu
110 Modeling of Voltage Regulator Module and LC extraction of Switching Power Chun-Yi, Yeh
110 Planar Dielectric Lens Design of Microstrip Patch Array Antenna Used in Vehicle Collision Avoidance Radar System Nien-Chih Tsai
110 Broadband Channel Sounder Realization of FMCW by Using FPGA Development Board Chia-Hung Kao
109 Broadband Simultaneous Switching Noise Suppression with Embedded Complementary Split-Ring Resonators Cheng-I Chen
109 Dual-band High Absorption and Broadband Supression Common-Mode Noise Filter Bo-Hung Tsai
109 Packaging process for 5G millimeter wave application of multilayer board antenna array Pin-Zhong Shen
109 Broadband Channel Measurement of 5G Communication in One Typical Factory and Similar Relative Environments Chung-Yu, Yang
108 Broadband Antenna Design of Handheld Devices with Metal Housing for 5G MIMO Application at Sub-6 GHz Band Kuan-Hsun Wu
108 Broadband CM Suppression and Dual-band Absorption E-type Common Mode Suppression Filter Yu-Hao Zheng
108 Modeling of High-frequency Switching Power Noise in Voltage Regulator Module Shao-Huai Chiu
108 Improvement Analysis and Feasibility Assessment of 5G Base Station Deployment in 5G Mid-Band Ching-Han Hung
108 Smooth Bends Using Hybrid Compensation for Common-Mode Noise Reduction Yong-Lun Huang
108 Design on the Flatness for the Impedance of Power Delivery Network Yu-Cheng Lee
107 Using moderated bend to suppress common mode noise in the bent differential transmission line in limited area Hao-Wei Fu
107 Series Feed Broadband Patch Array Antenna Design for Vehicle Collision Warning Radar System Chung-Wei Wang
107 Multi-mode Excitation Interleaved EBG Structure for Broadband Suppression of SSN in Multilayer PCBs Min-Hung Hsieh
107 A Dual-Band Loop Rectenna for RF Energy Harvesting Yi-Hao Huang
107 Design of 24 GHz FMCW Radar System for Distance Detection Guan-Hong Lin
107 Measurement and Feasibility Assessment in 5G Mid-Band Po-Chuan Chen
107 Resource Allocation in LTE-A Network for Machine Type Communications (MTC) over Wi-Fi Spectrum under LAA Framework Rosabella Ika Yuanita
Academic Year Project Title Student
112 應用於WIFI WIFI -5GHz 5GHz 5GHz 的陣列天線 蔡宗祐
110 10 – 12 GHz 6 * 8 ML Beamforming Network 林育弘,徐智家
108 吸收型共模訊號抑制濾波器之設計 何政勳,林頌洋
Year Deeds
2024 指導博士班王美惠同學榮獲 IEEE iWEM 2024 論文佳作獎